// ==========================================================================
//                 SeqAn - The Library for Sequence Analysis
// ==========================================================================
// Copyright (c) 2006-2010, Knut Reinert, FU Berlin
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
//     * Redistributions of source code must retain the above copyright
//       notice, this list of conditions and the following disclaimer.
//     * Redistributions in binary form must reproduce the above copyright
//       notice, this list of conditions and the following disclaimer in the
//       documentation and/or other materials provided with the distribution.
//     * Neither the name of Knut Reinert or the FU Berlin nor the names of
//       its contributors may be used to endorse or promote products derived
//       from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// ARE DISCLAIMED. IN NO EVENT SHALL KNUT REINERT OR THE FU BERLIN BE LIABLE
// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
// LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
// OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
// DAMAGE.
//
// ==========================================================================
// Author: Andreas Gogol-Doering <andreas.doering@mdc-berlin.de>
// ==========================================================================

#ifndef SEQAN_HEADER_MODIFIER_ALPHABET_EXPANSION_H
#define SEQAN_HEADER_MODIFIER_ALPHABET_EXPANSION_H

namespace SEQAN_NAMESPACE_MAIN
{

//////////////////////////////////////////////////////////////////////////////

/**
.Spec.Alphabet Expansion:
..summary:Modifier that adds a character to an alphabet.
..cat:Modifier
..signature:ModifiedAlphabet<TAlphabet, ModExpand<CHAR [,TSpec]> >
..param.TAlphabet:Original value type.
..param.CHAR:$char$ character that specifies, what value should added to the alphabet.
...remarks:$CHAR$ should not be a $char$ that already stands for a value in $TAlphabet$.
	For example, do not use $'A'$ or $'a'$ as $CHAR$ when expanding @Spec.Dna@.
...remarks:Some values of $CHAR$ have special meaning:
....table:$'-'$|A gap character. The value in the expanded alphabet that corresponds to $'-'$ will be returned by the @Function.gapValue@.
....table:$'\$'$|An end of string character.
..param.TSpec:Optional specialization tag.
...default:$Default$
...remarks:This modifier is intended to expand @Class.SimpleType@ classes.
..include:seqan/modifier.h
*/

template <char CHAR, typename TSpec = Default>
struct ModExpand;


template <typename THost, char CHAR, typename TSpec>
class ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >
{
public:
	typedef typename IntegralForValue<ModifiedAlphabet>::Type TData;
	TData data;

	ModifiedAlphabet() 
	{
	}
	ModifiedAlphabet(ModifiedAlphabet const & other)
		: data(_internalOrdValue(other))
	{
	}
	template <typename TOther>
	ModifiedAlphabet(TOther const & other_data)
		: data(_internalOrdValue(convert<ModifiedAlphabet>(other_data)))
	{
	}
	~ModifiedAlphabet()
	{
	}
	ModifiedAlphabet const & 
	operator = (ModifiedAlphabet const & other)
	{
		data = other.data;
		return *this;
	}
	template <typename TOther>
	ModifiedAlphabet const & 
	operator = (TOther const & other_data)
	{
		data = _internalOrdValue(convert<ModifiedAlphabet>(other_data));
		return *this;
	}

/*	operator TData ()
	{
		return data;
	}

	operator THost()
	{
		return convert<THost>(data);
	}
*/
//____________________________________________________________________________

	//TODO(weese): investigate the issue below
	//this cannot be a template since a template would be in conflict to
	//the template c'tor

/*
	// weese: I tried the template below without problems in the tests
	template <typename TValue>
	operator TValue() const
	{
SEQAN_CHECKPOINT
		return convert<TValue>(*this);
	}
*/
	operator long() const
	{
SEQAN_CHECKPOINT
		return convert<long>(*this);
	}
	operator unsigned long() const
	{
SEQAN_CHECKPOINT
		return convert<unsigned long>(*this);
	}
	operator int() const
	{
SEQAN_CHECKPOINT
		return convert<int>(*this);
	}
	operator unsigned int() const
	{
SEQAN_CHECKPOINT
		return convert<unsigned int>(*this);
	}
	operator short() const
	{
SEQAN_CHECKPOINT
		return convert<short>(*this);
	}
	operator unsigned short() const
	{
SEQAN_CHECKPOINT
		return convert<unsigned short>(*this);
	}
	operator char() const
	{
SEQAN_CHECKPOINT
		return convert<char>(*this);
	}
	operator signed char() const
	{
SEQAN_CHECKPOINT
		return convert<signed char>(*this);
	}
	operator unsigned char() const
	{
SEQAN_CHECKPOINT
		return convert<unsigned char>(*this);
	}
};




//////////////////////////////////////////////////////////////////////////////
// sizes
//////////////////////////////////////////////////////////////////////////////

template <typename THost, char CHAR, typename TSpec>
struct BitsPerValue<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > >
{
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TValue;
	enum { VALUE = Log2< ValueSize<TValue>::VALUE >::VALUE };
};

//////////////////////////////////////////////////////////////////////////////

template <typename THost, char CHAR, typename TSpec>
struct ValueSize<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > >
{
	enum { VALUE = ValueSize<THost>::VALUE + 1 };
};

template <typename THost, char CHAR, typename TSpec>
struct InternalValueSize_<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > >
{
	enum { VALUE = InternalValueSize_<THost>::VALUE + 1 };
};

//////////////////////////////////////////////////////////////////////////////
// _internalCreateChar
//////////////////////////////////////////////////////////////////////////////

template <typename TValue, typename TNum>
inline TValue
_internalCreateChar(TValue const &, TNum i)
{
	return convert<TValue>(i);
}

template <typename TValue, typename TSpec, typename TNum>
inline SimpleType<TValue, TSpec>
_internalCreateChar(SimpleType<TValue, TSpec> const &, TNum i)
{
	SimpleType<TValue, TSpec> s;
	s.value = i;
	return s;
}

//////////////////////////////////////////////////////////////////////////////
// conversions
//////////////////////////////////////////////////////////////////////////////


// some type => ModExpand
template <typename THost, char CHAR, typename TSpec, typename TSource>
inline void
_initializeAlphabetConversionTable(ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > * buf,
								   TSource const &)
{
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TTarget;

	//assure that the conversion from TSource to THost is possible
//	AlphabetConversionTable_<THost, TSource>::initialize();
	
	//copy the conversion table for converting TSouce => THost
	//maybe, if there is no CHAR in TSource, the entry for CHAR is overwritten now
	for (int i = InternalValueSize_<TSource>::VALUE; i > 0; )
	{
		--i;
		buf[i].data = _internalOrdValue(convert<THost>(_internalCreateChar(TSource(), i)));
	}

	//add the new character CHAR to the table
	buf[_internalOrdValue(convert<TSource>(CHAR))].data = InternalValueSize_<THost>::VALUE;
}

template <int SIZE_OF_SOURCE>
struct ConvertImplModExpand_
{
	//default implementation for large source types
	template <typename THost, char CHAR, typename TSpec, typename T, typename TSource>
	inline 
	static typename Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, TSource>::Type
	_convertImpl(Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, T> const,
		TSource const & source_)
	{
		typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TTarget;
		if (source_ == ValueSize<THost>::VALUE)
		{// the extra character
			TTarget tmp;
			tmp.data = InternalValueSize_<THost>::VALUE;
			return tmp;
		}
		return convert<TTarget>(convert<THost>(source_));
	}
};

//for 1 byte source: use translation table
template <>
struct ConvertImplModExpand_<1>
{
	template <typename THost, char CHAR, typename TSpec, typename T, typename TSource>
	inline 
	static typename Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, TSource>::Type
	_convertImpl(Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, T> const,
		TSource const & source_)
	{
		typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TTarget;
		TTarget * table = AlphabetConversionTable_<TTarget, TSource>::table;
		return table[_internalOrdValue(source_)];
	}
};

//generic source: dispatch for size of BytesPerValue
template <typename THost, char CHAR, typename TSpec, typename T, typename TSource>
inline typename Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, TSource>::Type
convertImpl(Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, T> const convert_,
			TSource const & source_)
{
	return ConvertImplModExpand_<BytesPerValue<TSource>::VALUE>::_convertImpl(convert_, source_);
}

//for SimpleType sources
template <typename THost, char CHAR, typename TSpec, typename T, typename TSourceValue, typename TSourceSpec>
inline typename Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, SimpleType<TSourceValue, TSourceSpec> >::Type
convertImpl(Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, T> const,
			SimpleType<TSourceValue, TSourceSpec> const & source_)
{
SEQAN_CHECKPOINT
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TTarget;
	typedef SimpleType<TSourceValue, TSourceSpec> TSource;
	return AlphabetConversionTable_<TTarget, TSource>::table[_internalOrdValue(source_)];
}


// For SimpleType sources with the same underlying alphabet.
template <char CHAR, typename TSpec, typename T, typename TSourceValue, typename TSourceSpec>
inline typename Convert<ModifiedAlphabet<SimpleType<TSourceValue, TSourceSpec>, ModExpand<CHAR, TSpec> >, SimpleType<TSourceValue, TSourceSpec> >::Type
convertImpl(Convert<ModifiedAlphabet<SimpleType<TSourceValue, TSourceSpec>, ModExpand<CHAR, TSpec> >, T> const,
			SimpleType<TSourceValue, TSourceSpec> const & source_)
{
    SEQAN_CHECKPOINT;
	typedef SimpleType<TSourceValue, TSourceSpec> TSource;
	typedef ModifiedAlphabet<TSource, ModExpand<CHAR, TSpec> > TTarget;
	
	TTarget tmp;
	tmp.data = _internalOrdValue(source_);
	return tmp;
}


//for Proxy sources
template <typename THost, char CHAR, typename TSpec, typename T, typename TSpec2>
inline typename Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, Proxy<TSpec2> >::Type
convertImpl(Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, T> const,
			Proxy<TSpec2> const & source_)
{
SEQAN_CHECKPOINT
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TTarget;
	return convert<TTarget>(getValue(source_));
}


// ModExpand => some type

template <typename TTarget, typename THost, char CHAR, typename TSpec>
inline void
_initializeAlphabetConversionTable(TTarget * buf,
								   ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > const &)
{
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TSource;

	//assure that the conversion from THost to TTarget is possible
	AlphabetConversionTable_<TTarget, THost>::initialize(); 
	
	//copy the conversion table for converting THost => TTarget
	for (int i = InternalValueSize_<THost>::VALUE; i > 0; )
	{
		--i;
		buf[i] = convert<TTarget>(_internalCreateChar(THost(), i));
	}

	//add the new character CHAR to the table
	buf[InternalValueSize_<THost>::VALUE] = convert<TTarget, char>(CHAR);
}

template <typename TTarget, typename THost, char CHAR, typename TSpec>
inline void
_initializeAlphabetOrdTable(TTarget * buf,
							ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > const &)
{
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TSource;

	//assure that the conversion from THost to TTarget is possible
	AlphabetOrdTable_<THost>::initialize(); 
	
	//copy the conversion table for converting THost => TTarget
	for (int i = InternalValueSize_<THost>::VALUE; i > 0; )
	{
		--i;
		buf[i] = ordValue(_internalCreateChar(THost(), i));
	}

	//add the new character CHAR to the table
	buf[InternalValueSize_<THost>::VALUE] = ValueSize<THost>::VALUE;
}


// Conversion from modified alphabet to non-modified alphabet with an
// arbitrary type.  The conversion is done through an alphabet
// conversion table.  See below for a specialization where the
// underlying type of the modified alphabet and the target type are
// the same SimpleType specialization.
template <typename TTarget, typename T, typename THost, char CHAR, typename TSpec>
inline typename Convert<TTarget, ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > >::Type
convertImpl(Convert<TTarget, T> const,
			ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > const & source_)
{
    SEQAN_CHECKPOINT;
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TSource;
	return AlphabetConversionTable_<TTarget, TSource>::table[_internalOrdValue(source_)];
}


// Conversion from modified alphabet to non-modified with the same underlying type.
template <typename TTargetValue, typename TTargetSpec, char CHAR, typename TSpec>
inline typename Convert<SimpleType<TTargetValue, TTargetSpec>, ModifiedAlphabet<SimpleType<TTargetValue, TTargetSpec>, ModExpand<CHAR, TSpec> > >::Type
convertImpl(Convert<SimpleType<TTargetValue, TTargetSpec>, ModifiedAlphabet<SimpleType<TTargetValue, TTargetSpec>, ModExpand<CHAR, TSpec> > > const,
			ModifiedAlphabet<SimpleType<TTargetValue, TTargetSpec>, ModExpand<CHAR, TSpec> > const & source_)
{
    SEQAN_CHECKPOINT;
    typedef SimpleType<TTargetValue, TTargetSpec> TTarget;
    TTarget target;
	if (source_.data == InternalValueSize_<TTarget>::VALUE)
		assign(target, CHAR);
	else
		target.value = source_.data;
    return target;
}


//////////////////////////////////////////////////////////////////////////////


/*
template 
<
	typename TTargetHost, char TARGET_CHAR, typename TTargetSpec, typename T, 
	typename TSourceHost, char SOURCE_CHAR, typename TSourceSpec
>
inline typename Convert<ModifiedAlphabet<TTargetHost, ModExpand<TARGET_CHAR, TTargetSpec> > , ModifiedAlphabet<TSourceHost, ModExpand<SOURCE_CHAR, TSourceSpec> > >::Type
convertImpl(Convert<ModifiedAlphabet<TTargetHost, ModExpand<TARGET_CHAR, TTargetSpec> >, T> const,
			ModifiedAlphabet<TSourceHost, ModExpand<SOURCE_CHAR, TSourceSpec> > const & source_)
{
	ModifiedAlphabet<TTargetHost, ModExpand<TARGET_CHAR, TTargetSpec> > TTarget;
	ModifiedAlphabet<TSourceHost, ModExpand<SOURCE_CHAR, TSourceSpec> > TSource;
	return convert<TTarget>(convert<TTargetHost>(convert<TSourceHost>(source_)));
}
*/

//no conversion 
template <typename THost, char CHAR, typename TSpec, typename T>
inline ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >
convertImpl(Convert<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, T> const,
			ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > const & source_)
{
	return source_;
}


//////////////////////////////////////////////////////////////////////////////

template <typename THost, char CHAR, typename TSpec>
inline unsigned
_internalOrdValue(ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > const & c) 
{
	return c.data;
}

template <typename THost, char CHAR, typename TSpec>
inline unsigned
ordValue(ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > const & c) 
{
    SEQAN_CHECKPOINT;
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TSource;
	return AlphabetOrdTable_<TSource>::table[_internalOrdValue(c)];
}

//////////////////////////////////////////////////////////////////////////////
// comparisons
//////////////////////////////////////////////////////////////////////////////

template <typename TModExpand, typename THost, typename TRight, typename TCompareHostRight>
struct CompareTypeModExpandImpl_
{
	typedef TCompareHostRight Type; //fallback
};
template <typename TModExpand, typename THost, typename TRight>
struct CompareTypeModExpandImpl_<TModExpand, THost, TRight, THost>
{
	typedef TModExpand Type;
};
template <typename TModExpand, typename THost, typename TRight>
struct CompareTypeModExpandImpl_<TModExpand, THost, TRight, TRight>
{
	typedef TRight Type;
};


template <typename THost, char CHAR, typename TSpec, typename TRight>
struct CompareType<ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> >, TRight>
{
	typedef ModifiedAlphabet<THost, ModExpand<CHAR, TSpec> > TModExpand;
	typedef typename CompareType<THost, TRight>::Type TCompareHostRight;
	typedef typename CompareTypeModExpandImpl_<TModExpand, THost, TRight, TCompareHostRight>::Type Type;
};

//////////////////////////////////////////////////////////////////////////////

}// namespace 

#endif
